CN111496497B - Automatic assembly production line of communication equipment host computer heat dissipation protection casing - Google Patents

Abstract

The invention discloses an automatic assembly production line of a heat dissipation protective cover of a host machine of communication equipment, which relates to the technical field of communication equipment processing and comprises a fixed tool, a conveying platform, an assembly platform, a glue spraying mechanism and a cleaning mechanism, wherein the assembly platform is connected to a first slide rail on a workbench in a sliding mode and can horizontally move along the first slide rail under the action of a horizontal driving mechanism, the workbench is positioned on the right side of the conveying platform, a first assembly mechanism for assembling cooling fins is arranged on an upper support plate in the assembly platform, and a second assembly mechanism for assembling cooling pipes is arranged on a lower support plate in the assembly platform.

Description

Automatic assembly production line of communication equipment host computer heat dissipation protection casing

Technical Field

The invention belongs to the technical field of communication equipment processing, and particularly relates to an automatic assembly production line of a heat dissipation protective cover of a host machine of communication equipment.

Background

With the development of science and technology and the pursuit of people on the quality of life, the communication technology is developed rapidly. Among them, mobile communication technology has been shifting from 4G to 5G. Therefore, there is an increasing demand for 5G base stations.

The main engine protective cover in the 5G base station is mostly a metal piece, has certain heat dissipation function, and is mostly formed by die casting, and then a joint type is made into a radiating fin or heat is dissipated by adopting a heat pipe technology. At present, to a fin form host computer protection casing of my department's research and development, it includes protection casing body, fin and cooling tube, and the fin is pegged graft in the spout at protection casing body top, and the cooling tube joint is in the cooling bath of protection casing body bottom to further fixed with the help of the hot melt adhesive, this kind of protection casing adopts dual radiating mode, and the radiating effect is good. However, the current assembly mode is considered to be manual assembly, and the radiating fins and the cooling pipes are assembled in two stations, so that the assembly efficiency is low, and mass production cannot be realized, so that improvement is needed.

Disclosure of Invention

The invention aims to provide an automatic assembly production line of a heat dissipation protective cover of a communication equipment main machine, which aims to solve the defects caused in the prior art.

The utility model provides an automatic assembly production line of communication equipment host computer heat dissipation protection casing, includes:

the fixing tool is used for fixing the protective cover body on the fixing tool so as to realize the smooth assembly of the radiating fins and the cooling pipe;

the conveying platform is provided with the fixing tool and is used for realizing horizontal conveying of the fixing tool;

the assembly platform is connected to the first sliding rail on the workbench in a sliding mode and can horizontally move along the first sliding rail under the action of the horizontal driving mechanism, the workbench is located on the right side of the conveying platform, a first assembly mechanism for assembling cooling fins is mounted on an upper supporting plate in the assembly platform, and a second assembly mechanism for assembling cooling pipes is mounted on a lower supporting plate in the assembly platform;

the glue spraying mechanism is arranged on one side of the conveying platform on the workbench and is used for spraying powdery hot melt adhesive particles on the upper surface of the cooling pipe;

and the cleaning mechanism is arranged on the workbench and positioned on the right side of the glue spraying mechanism and is used for cleaning the upper surface of the second assembling mechanism.

Preferably, the fixing tool comprises a fixing frame and a power mechanism, the fixing frame is connected to the conveying platform in a sliding mode through a sliding block, and the power mechanism at the bottom of the fixing frame drives the fixing frame to move horizontally on the conveying platform;

the fixing frame comprises a bottom plate, a top plate, support columns, a first limiting block and a locking mechanism, wherein the top plate is located above the bottom plate, the four support columns located at four corners of the bottom plate are fixedly connected together, a through hole used for assembling is formed in the geometric center of the top plate, the first limiting block is arranged on the top surface of the top plate and located on the front side and the rear side of the through hole, the first limiting block is used for limiting the protective cover body, and the locking mechanism is installed on the outer side of the first limiting block and used for locking and positioning the protective cover body.

Preferably, the conveying platform comprises a base, a guide rail and a rack, the base is U-shaped, the guide rail is installed at the top of the base, and the rack is installed in the base through an I-beam;

the power mechanism comprises a driving motor, a driving gear and a driven gear, the driving motor is installed below the fixing frame through a motor base, the output end of the driving motor is connected to the driving gear, the driving gear is meshed with the driven gear, and the driven gear is meshed with the rack.

Preferably, the assembly platform comprises an upper support plate, a lower support plate and a vertical plate, the upper support plate and the lower support plate are fixedly connected through the vertical plate, the length of the upper support plate is smaller than that of the lower support plate, and the lower support plate is slidably connected to a first slide rail of the workbench;

the horizontal driving mechanism comprises a horizontal driving cylinder and a cylinder seat, the horizontal driving cylinder is arranged on the cylinder seat, and the output end of the horizontal driving cylinder is connected to the vertical plate.

Preferably, a ribbed plate for supporting is further connected between the upper supporting plate and the lower supporting plate.

Preferably, the first assembling mechanism comprises a second sliding rail, a pushing cylinder and a pushing sliding block, the second sliding rail is installed on the top surface of the upper supporting plate, the pushing sliding block is connected in the second sliding rail in a sliding mode and connected to the output end of the pushing cylinder, and the pushing cylinder is installed on the vertical plate.

Preferably, assembly devices two includes fly leaf, backing plate, electro-magnet, liftout cylinder, guide bar and flexible stop gear, the fly leaf is through a plurality of guide bar sliding connection in the guiding hole one in the backup pad down, and the bottom of fly leaf is connected to the output of liftout cylinder, and the liftout cylinder is installed in the bottom surface of backup pad down, the backing plate is made by the magnetic metal board and is installed in the top surface of fly leaf, and the bottom of backing plate is embedded to have the electro-magnet, flexible stop gear installs on the fly leaf and is located the periphery side of backing plate.

Preferably, the flexible limiting mechanism comprises a second limiting block, a second guide pillar and a spring, the second limiting block is three and is located on the front side, the rear side and the left side of the backing plate respectively, the second limiting block is connected to the movable plate and the lower support plate in a sliding mode, the second guide pillar is fixed to the bottom of the second limiting block and is connected to the second guide hole in the lower support plate in a sliding mode, the lower end of the second guide pillar is connected with a limiting cover to prevent the guide pillar from moving excessively, and the spring is sleeved on the second guide pillar between the second limiting block and the second guide hole.

Preferably, locking mechanism includes motor cabinet, locking motor and driving lever, and the motor cabinet is fixed in the top surface of roof, and locking motor installs on the motor cabinet and its output is connected to the driving lever, and the lower extreme of driving lever rotates through the pivot and connects on the roof.

Preferably, the glue spraying mechanism comprises a glue spraying bracket and a plurality of nozzles, the glue spraying bracket is arranged at the left end of the workbench, and the nozzles are equidistantly arranged on the glue spraying bracket;

the cleaning mechanism comprises at least 2 fans, the fans are mounted on the workbench through supports and located on the right side of the glue spraying mechanism, and the fans are arranged along the length direction of the first sliding rail.

The invention has the advantages that:

(1) the invention adopts a production line type production mode, realizes the rapid assembly operation of the host protective cover, obviously improves the assembly efficiency and the assembly precision and saves the labor cost compared with the traditional manual operation.

(2) The assembly platform provided by the invention provides two operation platforms of assembly mechanisms, the assembly of the cooling fin, the cooling pipe and the protective cover body can be completed at one time, and hot melt adhesive particles can be sprayed on the surface of the cooling pipe before the assembly, so that the cooling pipe and the protective cover body can be further connected and fixed in the later period.

(3) The cleaning mechanism can also blow air to the upper surface of the assembled assembly mechanism II to clean the residual hot melt adhesive particles on the surface of the assembled assembly mechanism II, so that the error of the next assembly is reduced.

(4) The second assembling mechanism can position the magnetic cooling pipe by means of the electromagnet, so that the positioning deviation of the cooling pipe generated when the second assembling mechanism moves is prevented, and the assembling precision is further improved; the flexible limiting mechanism can pre-position the cooling pipe when the cooling pipe is placed.

Drawings

FIG. 1 is a schematic diagram of the present invention in a configuration ready for assembly.

Fig. 2 is a right side view of fig. 1.

Fig. 3 is a top view of fig. 1.

Fig. 4a and 4b are schematic structural views of the fixing tool in different viewing angles.

Fig. 4c is a schematic structural diagram of the locking mechanism of the present invention.

Fig. 5 is a schematic structural view of the conveying platform of the present invention.

Fig. 6 is a schematic structural view of the mounting platform portion of the present invention.

FIG. 7a is a partial top view of a second assembly mechanism of the present invention.

Fig. 7b is a cross-sectional view taken along the line a-a in fig. 7 a.

Fig. 7c is a cross-sectional view taken along the direction B-B in fig. 7 a.

Fig. 8 is a schematic structural view of the glue spraying mechanism of the present invention.

Fig. 9a is a schematic structural view of the heat dissipation shield of the present invention.

Fig. 9b and 9c are exploded views of the heat dissipation shield of the present invention from different viewing angles.

Wherein:

1-fixing tool, 11-fixing frame, 111-bottom plate, 112-top plate, 113-supporting column, 114-limiting block I, 115-locking mechanism, 1151-motor seat, 1152-locking motor, 1153-deflector rod, 1154-rotating shaft, 12-power mechanism, 121-driving motor, 122-driving gear and 123-driven gear;

2-conveying platform, 21-base, 22-guide rail, 23-rack;

3-an assembly platform, 31-an upper support plate, 32-a lower support plate, 33-a vertical plate, 34-a workbench and 35-a first sliding rail;

4-horizontal driving mechanism, 41-horizontal driving cylinder, 42-cylinder seat;

5-a first assembling mechanism, 51-a second sliding rail, 52-a material pushing cylinder and 53-a material pushing sliding block;

6-assembly mechanism II, 61-movable plate, 62-backing plate, 63-electromagnet, 64-material ejection cylinder, 65-guide rod, 66-flexible limiting mechanism, 661-limiting block II, 662-guide column, 663-spring and 664-sliding groove;

7-glue spraying mechanism, 71-glue spraying bracket and 72-nozzle;

8-cleaning mechanism, 81-fan, 82-support; 9-locking the cylinder;

100-protective cover body, 101-cooling fin, 102-cooling tube, 104-photoelectric sensor.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1 to 9c, an automatic assembly line for a heat dissipation shield of a communication device host comprises:

the fixing tool 1 is used for fixing the protective cover body 100 on the fixing tool to realize the smooth assembly of the radiating fins 101 and the cooling pipes 102;

the conveying platform 2 is provided with the fixing tool 1 and is used for realizing horizontal conveying of the fixing tool 1;

the assembling platform 3 is connected to a first slide rail 35 on the workbench 34 in a sliding manner and can horizontally move along the first slide rail 35 under the action of a horizontal driving mechanism 4, the workbench 34 is positioned on the right side of the conveying platform 2, a first assembling mechanism 5 for assembling the radiating fins 101 is installed on an upper supporting plate 31 in the assembling platform 3, and a second assembling mechanism 6 for assembling the cooling pipes 102 is installed on an upper supporting plate 32 in the assembling platform 3;

the glue spraying mechanism 7 is arranged on one side of the workbench 34, which is positioned on the conveying platform 2, and is used for spraying powdery hot melt adhesive particles on the upper surface of the cooling pipe 102;

and the cleaning mechanism 8 is arranged on the workbench 34 and positioned on the right side of the glue spraying mechanism 7 and is used for cleaning the upper surface of the second assembling mechanism 6.

In this embodiment, the fixing tool 1 includes a fixing frame 11 and a power mechanism 12, the fixing frame 11 is slidably connected to the conveying platform 2 through a sliding block, and the power mechanism 12 at the bottom of the fixing frame drives the fixing frame 11 to horizontally move on the conveying platform 2;

the fixing frame 11 comprises a bottom plate 111, a top plate 112, supporting columns 113, first limiting blocks 114 and locking mechanisms 115, wherein the top plate 112 is located above the bottom plate 111 and is fixedly connected with the supporting columns 113 located at four corners of the bottom plate 111 through four supporting columns, a through hole for assembly is formed in the geometric center of the top plate 112, the first limiting blocks 114 are arranged on the top surface of the top plate 112 and located on the front side and the rear side of the through hole, the first limiting blocks 114 are used for limiting the protective cover body 100, and the locking mechanisms 115 are installed on the outer sides of the first limiting blocks 114 and used for locking and positioning the protective cover body 100. The fixed frame 11 adopts a frame structure, and the space between the top plate 112 and the bottom plate 111 is used for the work of the second assembling mechanism 6.

In this embodiment, the conveying platform 2 includes a base 21, a guide rail 22 and a rack 23, the base 21 is "U" shaped, the guide rail 22 is installed on the top of the base 21, and the rack 23 is installed in the base 21 through an i-beam;

the power mechanism 12 includes a driving motor 121, a driving gear 122 and a driven gear 123, the driving motor 121 is mounted below the fixing frame 11 through a motor base 1151, an output end of the driving motor is connected to the driving gear 122, the driving gear 122 is engaged with the driven gear 123, and the driven gear 123 is engaged with the rack 23. By means of the rotation of the driving motor 121, the driving gear 122 and the driven gear 123 are driven to rotate, and further the fixing tool 1 is driven to move along the length direction of the base 21, and the driving motor 121 is a servo motor.

In this embodiment, the assembly platform 3 includes an upper support plate 31, a lower support plate 32 and a vertical plate 33, the upper support plate 31 and the lower support plate 32 are connected and fixed by the vertical plate 33, the length of the upper support plate 31 is smaller than that of the lower support plate 32, and the lower support plate 32 is slidably connected to a first slide rail 35 of the workbench 34;

the horizontal driving mechanism 4 comprises a horizontal driving cylinder 41 and a cylinder seat 42, the horizontal driving cylinder 41 is mounted on the cylinder seat 42, and the output end of the horizontal driving cylinder is connected to the vertical plate 33.

In this embodiment, a rib plate for supporting is further connected between the upper support plate 31 and the lower support plate 32.

In this embodiment, the first assembling mechanism 5 includes a second sliding rail 51, a pushing cylinder 52 and a pushing slider 53, the second sliding rail 51 is installed on the top surface of the upper support plate 31, the pushing slider 53 is slidably connected in the second sliding rail 51 and connected to the output end of the pushing cylinder 52, and the pushing cylinder 52 is installed on the vertical plate 33.

In this embodiment, the second assembling mechanism 6 includes a movable plate 61, a backing plate 62, an electromagnet 63, a material ejecting cylinder 64, a guide rod 65, and a flexible limiting mechanism 66, the movable plate 61 is slidably connected to the first guide hole of the lower support plate 32 through a plurality of guide rods 65, the bottom of the movable plate 61 is connected to the output end of the material ejecting cylinder 64, the material ejecting cylinder 64 is installed on the bottom surface of the lower support plate 32, the backing plate 62 is made of a magnetic metal plate and is installed on the top surface of the movable plate 61, the electromagnet 63 is embedded in the bottom of the backing plate 62, and the flexible limiting mechanism 66 is installed on the movable plate 61 and is located on the outer peripheral side of the backing plate 62.

In this embodiment, the flexible limiting mechanism 66 includes two limiting blocks 661, two guide pillars 662 and a spring 663, the two limiting blocks 661 are three and located on the front side, the rear side and the left side of the backing plate 62 respectively, the two limiting blocks 661 are slidably connected to the sliding grooves 664 on the movable plate 61 and the lower support plate 32, the two guide pillars 662 are fixed to the bottoms of the two limiting blocks 661 and slidably connected to the two guide holes on the lower support plate 32, the lower end of the guide pillar 662 is connected to a limiting cover to prevent the guide pillar 662 from moving excessively, and the spring 663 is sleeved on the guide pillar 662 between the two limiting blocks 661 and the two guide holes. The flexible limiting mechanism 66 can automatically contract when the cooling pipe 102 is assembled, so that the assembly is not affected.

In this embodiment, the locking mechanism 115 includes a motor base 1151, a locking motor 1152 and a shift lever 1153, the motor base 1151 is fixed on the top surface of the top plate 112, the locking motor 1152 is mounted on the motor base 1151 and has an output end connected to the shift lever 1153, a lower end of the shift lever 1153 is rotatably connected to the top plate 112 through a rotating shaft 1154, and the locking motor 1152 also employs a servo motor. The locking motor 1152 drives the shift lever 1153 to rotate to the upper surface of the bottom plate 111 of the shield body 100, so as to lock and fix the same. Otherwise, the locking is released.

In this embodiment, the glue spraying mechanism 7 includes a glue spraying bracket 71 and a plurality of nozzles 72, the glue spraying bracket 71 is installed at the left end of the workbench 34, and the plurality of nozzles 72 are equidistantly installed on the glue spraying bracket 71; the nozzle 72 is connected to the spraying equipment by a hose.

The cleaning mechanism 8 comprises at least 2 fans 81, the fans 81 are mounted on the workbench 34 through supports 82 and located on the right side of the glue spraying mechanism 7, and the fans 81 are arranged along the length direction of the first sliding rail 35. When the second assembling mechanism 6 finishes assembling and retreats, the wind blown by the fan 81 can blow off the hot melt adhesive particles on the surface thereof so as to realize cleaning.

The working process and principle of the invention are as follows:

when the power mechanism 12 drives the fixing tool 1 to reach the assembling station, the protective cover body 100 is locked and positioned by the locking mechanism 115, meanwhile, the two locking cylinders 9 located on the inner bottom surface of the base 21 also extend to lock and position the fixing tool 1, then, the horizontal driving cylinder 41 extends to push the assembling platform 3 to the fixing tool 1, the left end of the upper supporting plate 31 contacts with the side surface of the top plate 112, the lower supporting plate 32 extends to the lower part of the top plate 112 (i.e., the lower part of the protective cover body 100), in the process, the cooling pipe 102 passes through the glue spraying mechanism 77, a certain amount of powdered hot melt adhesive particles are sprayed on the upper surface of the cooling pipe 102 by the glue spraying mechanism 77, and the fan 81 in the cleaning mechanism 8 is in a closed state at this time; then, the material pushing cylinder 52 is started to push the heat radiating fins 101 between the two sliding rails 51 to move towards the protective cover body 100, and finally the heat radiating fins 101 are pushed into the sliding grooves in the top of the protective cover body 100 to complete the assembly of the heat radiating fins 101, the material pushing cylinder 64 extends out at the moment, the cooling pipes 102 are adsorbed and fixed by the electromagnets 63 at the moment, the movable plate 61 moves upwards, the second limiting block 661 firstly penetrates through the through holes in the fixing tool 1, contacts with the bottom surface of the protective cover body 100 and is pressed downwards until the second limiting block 661 is completely retracted into the sliding grooves 664 in the lower supporting plate 32, and in the process, the cooling pipes 102 are pressed into the cooling grooves in the bottom of the protective cover body 100 and are clamped and fixed, so that the assembly of the cooling pipes 102 is completed.

After the assembly is completed, the horizontal driving cylinder 41 retracts, the assembly platform 3 resets, and in the process, the second assembly mechanism 6 passes through the cleaning mechanism 8, the fan 81 is in an open state at the moment, and air is blown to the upper surface of the second assembly mechanism 6 after the assembly, so that the residual hot melt adhesive particles on the surface of the hot melt adhesive particles are cleaned. After the assembly is completed, the assembled protective cover is sent to an oven to be baked for a period of time, and hot melt adhesive particles are melted, so that the cooling pipe 102 can be in close contact with the protective cover body 100, and the heat conduction effect is improved.

In the assembling process of the present invention, the assembling of the cooling fin 101 and the cooling pipe 102 is performed simultaneously, but may be performed in a distributed manner as required. In addition, a photoelectric sensor 104 can be respectively installed on the left side of the worktable 34 and the right side of the fixed frame 11 for identifying and positioning the fixed tool 1 in the moving process.

The number of the fixing tools 1 can be 2, the fixing tools are arranged on the conveying platform 2 and are respectively arranged on the front side and the rear side of the assembling platform 3, when one of the fixing tools is positioned at the assembling station and the other one is positioned at the material taking station, the protective cover body 100 is placed on the fixing tool 1 and locked by a mechanical arm or a manual work, and the steps are repeated, so that the assembly of a plurality of products can be continuously completed.

In the present invention, the heat sink 101 and the cooling tube 102 are placed at corresponding positions by a human or a robot, and the required electrical components in the present invention are connected to a PLC controller to realize semi-automatic or full-automatic control.

It will be appreciated by those skilled in the art that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The embodiments disclosed above are therefore to be considered in all respects as illustrative and not restrictive. All changes which come within the scope of or equivalence to the invention are intended to be embraced therein.

Claims (9)

1. The utility model provides an automatic assembly production line of communication equipment host computer heat dissipation protection casing which characterized in that includes:

the fixing tool (1) is used for fixing the protective cover body (100) on the fixing tool to realize the smooth assembly of the radiating fins (101) and the cooling pipe (102);

the conveying platform (2) is provided with the fixing tool (1) and is used for realizing horizontal conveying of the fixing tool (1);

the cooling device comprises an assembly platform (3), the assembly platform (3) is connected to a first sliding rail (35) on a workbench (34) in a sliding mode and can horizontally move along the first sliding rail (35) under the action of a horizontal driving mechanism (4), the workbench (34) is located on the right side of a conveying platform (2), a first assembly mechanism (5) for assembling cooling fins (101) is installed on an upper supporting plate (31) in the assembly platform (3), and a second assembly mechanism (6) for assembling cooling pipes (102) is installed on a lower supporting plate (32) in the assembly platform (3);

the glue spraying mechanism (7) is arranged on one side of the conveying platform (2) on the workbench (34) and is used for spraying powdery hot melt glue particles on the upper surface of the cooling pipe (102);

the cleaning mechanism (8) is arranged on the workbench (34), is positioned on the right side of the glue spraying mechanism (7) and is used for cleaning the upper surface of the second assembling mechanism (6);

the fixing tool (1) comprises a fixing frame (11) and a power mechanism (12), wherein the fixing frame (11) is connected to the conveying platform (2) in a sliding mode through a sliding block and drives the fixing frame (11) to horizontally move on the conveying platform (2) through the power mechanism (12) at the bottom of the fixing frame;

the fixing frame (11) comprises a bottom plate (111), a top plate (112), supporting columns (113), a first limiting block (114) and a locking mechanism (115), wherein the top plate (112) is located on the bottom plate (111) and is fixedly connected with the supporting columns (113) located at four corners of the bottom plate (111) through four supporting columns, a through hole for assembly is formed in the geometric center of the top plate (112), the first limiting block (114) is arranged on the top surface of the top plate (112) and located on the front side and the rear side of the through hole, the first limiting block (114) is used for limiting the protective cover body (100), and the locking mechanism (115) is installed on the outer side of the first limiting block (114) and used for locking and positioning the protective cover body (100).

2. The automatic assembly line of the heat-dissipating protective cover of the communication equipment main unit according to claim 1, characterized in that: the conveying platform (2) comprises a base (21), a guide rail (22) and a rack (23), the base (21) is U-shaped, the guide rail (22) is installed at the top of the base (21), and the rack (23) is installed in the base (21) through an I-beam;

the power mechanism (12) comprises a driving motor (121), a driving gear (122) and a driven gear (123), the driving motor (121) is mounted below the fixed frame (11) through a motor base (1151), the output end of the driving motor is connected to the driving gear (122), the driving gear (122) is meshed with the driven gear (123), and the driven gear (123) is meshed with the rack (23).

3. The automatic assembly line of the heat-dissipating protective cover of the communication equipment main unit according to claim 1, characterized in that: the assembling platform (3) comprises an upper supporting plate (31), a lower supporting plate (32) and a vertical plate (33), the upper supporting plate (31) and the lower supporting plate (32) are fixedly connected through the vertical plate (33), the length of the upper supporting plate (31) is smaller than that of the lower supporting plate (32), and the lower supporting plate (32) is slidably connected to a first sliding rail (35) of the workbench (34);

the horizontal driving mechanism (4) comprises a horizontal driving air cylinder (41) and an air cylinder seat (42), wherein the horizontal driving air cylinder (41) is installed on the air cylinder seat (42) and the output end of the horizontal driving air cylinder is connected to the vertical plate (33).

4. The automatic assembly line of claim 3, wherein the automatic assembly line comprises: and a ribbed plate for supporting is also connected between the upper supporting plate (31) and the lower supporting plate (32).

5. The automatic assembly line of claim 3, wherein the automatic assembly line comprises: the first assembling mechanism (5) comprises a second sliding rail (51), a pushing cylinder (52) and a pushing sliding block (53), the second sliding rail (51) is installed on the top surface of the upper supporting plate (31), the pushing sliding block (53) is connected into the second sliding rail (51) in a sliding mode and connected to the output end of the pushing cylinder (52), and the pushing cylinder (52) is installed on the vertical plate (33).

6. The automatic assembly line of claim 3, wherein the automatic assembly line comprises: assembly devices two (6) are including fly leaf (61), backing plate (62), electro-magnet (63), liftout cylinder (64), guide bar (65) and flexible stop gear (66), fly leaf (61) through a plurality of guide bar (65) sliding connection in the guiding hole one on backup pad (32) down, the bottom of fly leaf (61) is connected to the output of liftout cylinder (64), liftout cylinder (64) are installed in the bottom surface of backup pad (32) down, backing plate (62) are made by the magnetic metal board and are installed in the top surface of fly leaf (61), the bottom of backing plate (62) is embedded to have electro-magnet (63), flexible stop gear (66) are installed on fly leaf (61) and are located the periphery side of backing plate (62).

7. The automatic assembly line of claim 6, wherein the automatic assembly line comprises: the flexible limiting mechanism (66) comprises two limiting blocks (661), two guide pillars (662) and a spring (663), the two limiting blocks (661) are three and are located on the front side, the rear side and the left side of the base plate (62) respectively, the two limiting blocks (661) are connected in sliding grooves (664) in the movable plate (61) and the lower supporting plate (32) in a sliding mode, the guide pillars (662) are fixed to the bottoms of the two limiting blocks (661) and are connected in guiding holes in the lower supporting plate (32) in a sliding mode, the lower end of the guide pillars (662) is connected with a limiting cover to prevent the guide pillars (662) from moving excessively, and the spring (663) is sleeved on the guide pillars (662) between the two limiting blocks (661) and the guiding holes.

8. The automatic assembly line of the heat-dissipating protective cover of the communication equipment main unit according to claim 1, characterized in that: locking mechanism (115) include motor cabinet (1151), locking motor (1152) and driving lever (1153), and motor cabinet (1151) is fixed in the top surface of roof (112), and locking motor (1152) is installed on motor cabinet (1151) and its output is connected to driving lever (1153), and the lower extreme of driving lever (1153) rotates through pivot (1154) and connects on roof (112).

9. The automatic assembly line of the heat-dissipating protective cover of the communication equipment main unit according to claim 1, characterized in that:

the glue spraying mechanism (7) comprises a glue spraying support (71) and a plurality of nozzles (72), the glue spraying support (71) is arranged at the left end of the workbench (34), and the nozzles (72) are arranged on the glue spraying support (71) at equal intervals;

the cleaning mechanism (8) comprises at least 2 fans (81), the fans (81) are mounted on the workbench (34) through supports (82) and located on the right side of the glue spraying mechanism (7), and the fans (81) are arranged along the length direction of the first sliding rail (35).

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